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ICIP
2000
IEEE
2000
IEEE
Model-Based Inverse Halftoning with Wavelet-Vaguelette Deconvolution
In this paper, we demonstrate based on the linear model of [1, 2] that inverse halftoning is equivalent to the well-studied problem of deconvolution in the presence of colored noise. We propose the use of the simple and elegant wavelet-vaguelette deconvolution (WVD) algorithm to perform the inverse halftoning. Unlike previous wavelet-based algorithms, our method is model-based; hence it is adapted to different error diffusion halftoning techniques. Our inverse halftoning algorithm consists of inverting the convolution operator followed by denoising in the wavelet domain. For signals in a Besov space, our algorithm possesses asymptotically (as the number of samples ?? ) near-optimal rates of error decay. Hence for images in a Besov space, it is impossible to improve significantly on the inverse halftoning performance of the WVD algorithm at high resolutions. Using simulations, we verify that our algorithm outperforms or matches the performances of the best published inverse halftoning ...
Real-time TrafficAlgorithm Outperforms | ICIP 2000 | Image Processing | Inverse Halftoning Algorithm | Inverse Halftoning Performance |
| Added | 25 Oct 2009 |
| Updated | 27 Oct 2009 |
| Type | Conference |
| Year | 2000 |
| Where | ICIP |
| Authors | Ramesh Neelamani, Robert Nowak, Richard G. Baraniuk |
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